Researchers at the University of Bath have used nature for inspiration in designing a new type of swimming robot which could bring a breakthrough in submersible technology.
Conventional submarine robots are powered by propellers that are heavy, inefficient and can get tangled in weeds.
In contrast ‘Gymnobot’, created by researchers from the Ocean Technologies Lab in the University’s Department of Mechanical Engineering, is powered by a fin that runs the length of the underside of its rigid body; this undulates to make a wave in the water which propels the robot forwards.
The design, inspired by the Amazonian knifefish, is thought to be more energy efficient than conventional propellers and allows the robot to navigate shallow water near the sea shore.
Gymnobot could be used to film and study the diverse marine life near the seashore, where conventional submersible robots would have difficulty manoeuvring due to the shallow water with its complex rocky environment and plants that can tangle a propeller.
Dr William Megill, Lecturer in Biomimetics at the University of Bath, explained: “The knifefish has a ventral fin that runs the length of its body and makes a wave in the water that enables it to easily swim backwards or forwards in the water.
“Gymnobot mimics this fin and creates a wave in the water that drives it forwards. This form of propulsion is potentially much more efficient than a conventional propeller and is easier to control in shallow water near the shore.”
The lab was recently awarded a grant to work with six other European institutions to create a similar robot that reacts to water flow and is able to swim against currents.
In addition to studying biodiversity near the shore and in fast-flowing rivers, robots like Gymnobot could also be used for detecting pollution in the environment or for inspecting structures such as oil rigs.
The project was funded by BMT Defence Services and the Engineering & Physical Sciences Research Council.
You can watch a video of Gymnobot here: www.bath.ac.uk/play/video/1253632980
Tags: innovation, Research, robot
